Apparatus and method for monitoring a system in which a fluid flows and which is characterized by a change in the system with time in space. A preselected place in the system is monitored to collect data at two or more time points correlated to a system event. The data is indicative of a system parameter that varies with time as a function of at least two variables related to system wash-in and wash-out behavior. A calibration map is made on a calculated basis with each pixel or voxel representative of a color hue indicative of wash-out behavior and a color intensity indicative of wash-in behavior. When a satisfactory map is obtained, the collected data is processed on the basis of the map to obtain an image of the preselected place with each spatial unit thereof correlated with a color hue and a color intensity. Software and a data processing system are provided to develop the calibration map. The calibration map and image of the preselected place are also novel implementations. Two sets of maps and images can be acquired using different sets of time points.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A set of at least two calibration maps for use in monitoring a system in which fluid flows and which is characterized by a change in a system parameter with time in space as a function of two variables related to system wash-in and system wash-out behavior at two time intervals after a system event, each map based on different time intervals and depicting in two or three dimensions an image of the two variables ranging from a minimum to a maximum wherein the discrete elements of the image have a color hue of one of a plurality of colors indicative of system wash-out behavior and a color intensity indicative of system wash-in behavior.
2. A calibration map according to claim 1 wherein the image is a display on a monitor.
3. A calibration map according to claim 1 wherein the image is digitally encoded on a computer readable medium.
4. A calibration map according to claim 1 wherein the image is printed on a printable medium.
5. A calibration map according to claim 1 wherein three colors are used.
6. A calibration map according to claim 5 wherein the colors are red, blue and green.
7. A set of at least two images depicting in two or three dimensions a location in a system in which fluid flows and which is characterized at said location by a change in a system parameter as a function of two variables related to system wash-in behavior at a first time interval and system wash-out behavior at a second time interval after a system event, the discrete elements of the image having a color hue of one of a plurality of colors indicative of system wash-out behavior and a color intensity indicative of system wash-in behavior, with the time intervals for the at least two images being different.
8. The image of claim 7 as a display on a monitor.
9. The image of claim 7 digitally encoded on a computer readable medium.
10. The image of claim 7 printed on a printable medium.
11. The image of claim 7 wherein at least three colors are used.
12. The image of claim 11 wherein the colors include red, blue and green.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
April 26, 2001
April 22, 2003
Browse 5M+ US patents with plain-English claim translations and AI-generated analysis.